R0E0200F1EMU00 Renesas Electronics America, R0E0200F1EMU00 Datasheet

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To our customers, Old Company Name in Catalogs and Other Documents st On April 1 , 2010, NEC Electronics Corporation merged with Renesas Technology Corporation, and Renesas Electronics Corporation took over all the business of both companies. Therefore, although the ...

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All information included in this document is current as of the date this document is issued. Such information, however, is subject to change without any prior notice. Before purchasing or using any Renesas Electronics products listed herein, please confirm ...

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SH-2A, SH-2 E200F Emulator Additional Document for User’s Manual Supplementary Information on Using the SH7286, SH7285, and SH7243 Renesas Microcomputer Development Environment System SuperH™ Family / SH7280 Group E200F for SH7280 Group R0E572800EMU00E Rev.4.00 2009.02 ...

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Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Notes regarding these materials 1. This document is provided for reference purposes only so that Renesas customers may select the appropriate Renesas products for their use. Renesas neither makes warranties or representations with respect to the accuracy or completeness of ...

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Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Section 1 System Configuration .........................................................................1 1.1 Components of the Emulator ............................................................................................ 1 1.2 System Configuration ....................................................................................................... 5 Section 2 Connecting the Emulator to the User System.....................................7 2.1 Connecting the Emulator to the User System ................................................................... 7 2.2 Connecting the Emulator ...

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Delay Time for the User System Interface........................................................................ 64 Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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... E200F serial numbers: 0001 to 0113 1 E200F serial numbers: 0114 or later 1 1 Rev. 4.00 Feb. 18, 2009 Page Remarks R0E0200F1EMU00: Depth: 185.0 mm, Width: 130.0 mm, Height: 45.0 mm, Mass: 321.0 g Input: 100 to 240 V Output 4.0 A Depth: 120.0 mm, Width: 72.0 mm, Height: 27.0 mm, Mass: 400.0 g Input: 100 to 240 V Output ...

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... E200F serial numbers: 0114 or later 1 1 Remarks Length: 1500 mm, Mass: 50.6 g Length: 500 mm, Pins probe input pins, T: trigger output pin, G: GND pin Length: 500 mm, Pins probe input pins, T: trigger output pin, G: GND pin R0E0200F1EMU00S, R0E0200F1EMU00J, R0E0200F1EMU00E, R0E572800EMU00J, and R0E572800EMU00E (provided on a CD-R) ...

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Table 1.2 Optional Components of the Emulator Classi- fication Component Hard- External bus trace unit ware Emulation memory unit (Memory capacity: 8 Mbytes or 16 Mbytes) EV-chip unit Trace cable SH7243 (PLQP0100KB- A) user system interface board SH7285 (PLQP0144KA- A) ...

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Table 1.2 Optional Components of the Emulator (cont) Classi- fication Component Hard- SH7286 (PLQP0176KB- ware A) user system interface (cont) board SH7286 (PLQP0176LB-A) user system interface board Expansion profiling unit Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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System Configuration Figure 1.1 shows an example of the emulator system configuration. - When the EV-chip unit is not used When the EV-chip unit is not used: PC Figure 1.1 System Configuration Using the Emulator (1) System ...

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... Table 1.3 System Configuration Supported by the SH7280 Series and SH7243 Series E200F Emulator EV-chip Unit R0E0200F1EMU00 R0E572800VKK00 System configu- Supported Not supported *1 ration 1 System configu- Supported Supported ration 2 System configu- Supported Supported ration 3 System configu- Supported Supported ration 4 System configu- Supported ...

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Section 2 Connecting the Emulator to the User System 2.1 Connecting the Emulator to the User System When the emulator is connected to the user system, use the optional EV-chip unit, user system interface board, and trace cable. 2.2 Connecting ...

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Figure 2.1 Connecting the Trace Cable to E200F when Using the EV-chip Unit Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Connect the EV-chip unit to the trace cable (CN1 side). Figure 2.2 Connecting the Trace Cable to the EV-chip Unit Check the orientation of pin 1 before connecting parts. CAUTION Rev. 4.00 Feb. 18, 2009 Page ...

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Connecting the E200F External Bus Trace Unit to the EV-chip Unit • When the external bus trace unit is used with the EV-chip unit, connect the external bus trace unit to the EV-chip unit as shown in figure 2.3. ...

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After checking the location of pin 1, connect the EV-chip unit, external bus trace unit, and trace cable. Figure 2.4 Connecting the EV-chip Unit, External Bus Trace Unit, and Trace Cable Check the orientation of pin 1 before connecting ...

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Connecting the H-UDI/AUD Probe to the EV-chip Unit • Connect the H-UDI/AUD probe to the EV-chip unit as shown in figure 2.5. Figure 2.5 Connecting the H-UDI/AUD Probe to the EV-chip Unit Check the orientation of pin 1 before ...

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Connecting the E200F Emulation Memory Unit to the EV-chip Unit • When the emulation memory unit is used with the EV-chip unit, connect the emulation memory unit to the EV-chip unit (figure 2.6). Figure 2.6 Connecting the Emulation Memory ...

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After checking the location of pin 1, connect the EV-chip unit, emulation memory unit, and trace cable. Figure 2.7 Connecting the Emulation Memory Unit, EV-chip Unit, and Trace Cable Check the orientation of pin 1 before connecting parts. Rev. ...

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Connecting the E200F External Bus Trace Unit, Emulation Memory Unit, and EV- chip Unit • When the external bus trace unit is used with the emulation memory unit and EV-chip unit, as shown in figure 2.8, connect them in ...

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Connecting the EV-chip Unit to the User System Interface Board • After checking the location of pin 1, connect the EV-chip unit to the user system interface board. User system Figure 2.9 Connecting the User System Interface Board to ...

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Using the E200F Emulator as a Stand-Alone Unit • If you are using the E200F emulator unit without connecting user system, refer to table 1.3 in section 1.2, System Configuration, and make connections as shown in ...

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Connecting the Emulator to the User System by Using the H-UDI Port Connector To connect the E200F emulator (hereinafter referred to as the emulator), the H-UDI port connector must be installed on the user system to connect the user ...

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Installing the H-UDI Port Connector on the User System Table 2.2 shows the recommended H-UDI port connectors for the emulator. Table 2.2 Recommended H-UDI Port Connectors Connector Type Number 36-pin connector DX10M-36S DX10M-36SE, DX10G1M-36SE Note: When designing the 36-pin ...

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Pin Input/ No. Signal *1 Output Output 1 AUDCK 2 GND 3 AUDATA0 Output 4 GND Output 5 AUDATA1 6 GND AUDATA2 Output 7 8 GND 9 AUDATA3 Output 10 GND *2 Output 11 _AUDSYNC 12 GND 13 N.C. 14 ...

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Recommended Circuit between the H-UDI Port Connector and the MCU 2.6.1 Recommended Circuit (36-Pin Type) Figures 2.12 and 2.13 show recommended circuits for connection between the H-UDI and AUD port connectors (36 pins) and the MCU when the emulator ...

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H-UDI port connector (36-pin type AUDCK GND 4 3 AUDATA0 GND 5 6 AUDATA1 GND 7 8 AUDATA2 GND 9 10 GND AUDATA3 12 11 GND AUDSYNC 14 13 N.C. GND 15 16 GND N. TCK ...

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H-UDI port connector (36-pin type AUDCK GND 4 3 AUDATA0 GND 5 6 GND AUDATA1 7 8 AUDATA2 GND 10 9 GND AUDATA3 12 11 GND AUDSYNC 13 14 N.C. GND 16 15 N.C. GND 18 17 TCK ...

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Using the IC Socket to Mount an MCU on the User System Figure 2.14 shows an example of the external appearance of the configuration when the IC socket is used to mount an MCU on the user system using ...

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Check the orientation of pin 1 before connecting parts the IC socket and IC top cover for mounting on the user system, we recommend the following products. ⎯ IC socket for SH7286 (package: PLQP0176KB-A, former package: FP-176EV) ...

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Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Section 3 Software Specifications when Using the SH7286, 3.1 Differences between the MCU and the Emulator 1. When the emulator system is initiated, it initializes the general registers and part of the control registers as shown in table 3.1. The ...

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Reset Signals The MCU reset signals are only valid during emulation started with clicking the GO or STEP- type button. If these signals are enabled on the user system in command input wait state, they are not sent to ...

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Memory Access to the External Flash Memory Area The emulator can download the load module to the external flash memory area (for details, refer to section 6.21, Download Function to the Flash Memory Area, in the SH-2A, SH-2 E200F ...

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Table 3.5 Multiplexed Functions MCU Function 1 SH7286 FWE PD16/D16/IRQ0/_CS3 PD17/D17/IRQ1/_POE5/SCK3/_CS2/WRxD PD18/D18/IRQ2/_POE6/TXD3/_CS1/WTxD PD19/D19/IRQ3/_POE7/RXD3/_CS0/WSCK PD24/D24/DREQ0/TIOC4DS PD22/D22/IRQ6/TIC5US/RXD4 SH7285 PA3/RXD1/SSI/_CS3 PA4/TXD1/SSO/_CS4 PA0/RXD0/_CS0 PA1/TXD0/_CS1 PA2/SCK0/_SCS/_CS2 FWE PD16/IRQ0/_CS3 PD17/IRQ1/_POE5/SCK3/_CS2/WRxD PD18/IRQ2/_POE6/TXD3/_CS1/WTxD PD19/IRQ3/_POE7/RXD3/_CS0/WSCK PD24/DREQ0/TIOC4DS PD22/IRQ6/TIC5US/RXD4 SH7243 PC3/A3 PC4/A4 PC0/A0/_POE0 PC1/A1 PC2/A2 FWE PD4/D4/TIC5W PD5/D5/TIC5US PD6/D6/TIC5VS PD7/D7/TIC5WS PD8/D8/TIOC3AS ...

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Note: Function 1 can be used when the AUD pins of the device are not connected to the emulator. The AUD pins are multiplexed with other pins. When the AUD function is used by the SH7286, SH7285, and SH7243 E200F ...

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Customization of the I/O-register definition file The internal I/O registers can be accessed from the [IO] window. However, note the following when accessing the SDMR register of the bus state controller. Before accessing the SDMR register, specify addresses to ...

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MCU operation mode Boot or the User boot mode is not supported in this emulator. Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Specific Functions for the Emulator when Using the SH7286, SH7285, and SH7243 In on-chip debugging mode, a reset must be input when the emulator is activated. 3.2.1 Event Condition Functions The emulator is used to set event conditions for ...

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Table 3.8 lists the combinations of conditions that can be set under Ch1 to Ch11 and the software trace. Table 3.8 Dialog Boxes for Setting Event Conditions Function Address Bus Condition Dialog Box (Address) [Event Ch1 Condition 1] [Event Ch2 ...

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The [Event Condition 11] dialog box is used to specify the count of [Event Condition 1] and becomes a reset point when the sequential condition is specified. Sequential Setting: Use the [Combination action(Sequential or PtoP)] dialog box to specify the ...

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Table 3.9 Conditions to Be Set (cont) Classification Item [Ch1 list box Ch2 to Ch1 PA (cont) Ch1 to Ch2 PA [Ch4, 5] list box Sets the point-to-point of the internal trace (the start or end condition of ...

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Usage Example of Sequential Break Extension Setting: A tutorial program provided for the product is used as an example. For the tutorial program, refer to section 6, Tutorial, in the SH-2A, SH-2 E200F Emulator User’s Manual. The conditions of Event ...

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Figure 3.1 [Source] Window at Execution Halt (Sequential Break) If the sequential condition, performance measurement start/end, or point-to-point for the internal trace is set, conditions of Event Condition to be used will be disabled. Such conditions must be enabled from ...

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If a condition of which intervals are satisfied closely is set, no sequential condition will be satisfied. • Set the Event conditions, which are satisfied closely, by the program counter with intervals of two or more instructions. • After ...

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Trace Functions The emulator supports the trace functions listed in table 3.10. Table 3.10 Trace Functions Function Branch trace Memory access trace trace Software The internal and AUD traces are set in the [I-Trace/AUD-Trace acquisition] dialog box of the ...

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Internal Trace Function: When [I-Trace] is selected for [Trace type] on the [Trace mode] page of the [I-Trace/AUD-Trace acquisition] dialog box, the internal trace can be used. Figure 3.2 [I-Trace/AUD-Trace acquisition] Dialog Box (Internal Trace Function) Rev. 4.00 Feb. 18, ...

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The following three items can be selected as the internal trace from [Type] of [I-Trace mode]. Table 3.11 Information on Acquiring the Internal Trace Item [M-Bus & Branch] [I-Bus] [I-Bus, M-Bus & Branch] After selecting [Type] of [I-Trace mode], select ...

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Using the Event Condition restricts the condition; the following three items are set as the internal trace conditions. Table 3.12 Trace Conditions of the Internal Trace Item Trace halt Trace acquisition Point-to-point To restrict trace acquisition to access only a ...

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Set [I-Trace] as [Ch4 to Ch5 PtoP] in the [Combination action (Sequential or PtoP)] dialog box. When point-to-point and trace acquisition condition are set simultaneously, they are ANDed. Notes on Internal Trace: • Timestamp The timestamp is the clock counts ...

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Trace acquisition condition Do not set the trace-end condition for the SLEEP instruction and the branch instruction according to which the delay slot becomes the SLEEP instruction. When [I-BUS, M-Bus & Branch] is selected and the trace acquisition condition ...

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AUD Trace Functions: This function is operational when the AUD pins of the MCU are connected to the emulator. Table 3.14 shows the AUD trace acquisition mode that can be set in each trace function. Table 3.14 AUD Trace Acquisition ...

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When the AUD trace function is used, select the [AUD function] radio button in the [Trace type] group box of the [Trace mode] page. Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 Figure 3.3 [Trace mode] Page ...

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Branch Trace Function The branch source and destination addresses and their source lines are displayed. Branch trace can be acquired by selecting the [Branch trace] check box in the [AUD function] group box of the [Trace mode] page. The ...

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Window Trace Function Memory access in the specified range can be acquired by trace. Two memory ranges can be specified for channels A and B. The read, write, or read/write cycle can be selected as the bus cycle for ...

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Note: When [M-BUS] or [I-BUS] is selected, the following bus cycles will be traced. • M-BUS: A bus cycle generated by the CPU is acquired. • I-BUS: A bus cycle generated by the CPU or DMA is acquired. (c) Software ...

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The AUD trace is disabled while the profiling function is used breaks occur immediately after executing non-delayed branch and TRAPA instructions and generating a branch due to exception or interrupt, a trace for one branch will not ...

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If a BREAKPOINT cannot be correctly set to an address in the ROM or flash memory area, a mark will be displayed in the [BP] area of the address on the [Source] or [Disassembly] window by refreshing the [Memory] ...

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Specifying the measurement start/end conditions The measurement start/end conditions are specified by using Event Condition 1,2. The [Ch1,2,3] list box of the [Combination action] dialog box can be used. Table 3.15 Measurement Period Classification Item Selection in Ch2 to ...

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For measurement tolerance, • The measured value includes tolerance. • Tolerance will be generated before or after a break. Note: When [Ch2 to Ch1 PA] or [Ch1 to Ch2 PA] is selected, to execute the user program, specify conditions set ...

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Table 3.16 Measurement Item Selected Name Disabled Elapsed time Branch instruction counts Number of execution instructions Number of execution 32bit-instructions Exception/interrupt counts Interrupt counts Data cache-miss counts Instruction cache-miss counts All area access counts All area instruction access counts All ...

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Notes the non-realtime trace mode of the AUD trace, normal counting cannot be performed because the generation state of the stall or the execution cycle is changed the internal ROM is not installed on the product, ...

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Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 ...

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Section 4 User System Interface Circuits 4.1 User System Interface Circuits Figures 4.1 through 4.6 show user system interface circuits. Use them as a reference to determine the value of the pull-up resistance. SH7280 HD151015 MD1 MD0 HD151015 FWE Figure ...

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SH7280 HD151015 NMI HD151015 _RES CN2 Figure 4.3 User System Interface Circuits Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 EP1S10 AHC14 AHC14 LVC08 EP1S10 AHC14 User system Vcc 100 kΩ NMI Vcc AHC14 100 kΩ _RES ...

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SH7280 XTAL N.C. HD151015 EP1S10 EXTAL 3.3 V VCC 2200 0.01 μF pF VSS PLLVSS 0.01 2200 μF pF PVCC AVCC 0.01 2200 μF pF AVSS AVREFVSS 0.01 2200 μF pF AVREF VCL 0.1 μF Figure 4.4 User System Interface ...

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SH7280 PF(11:0) DA1, DA0 ASEBCK ASEBRK Figure 4.5 User System Interface Circuits Rev. 4.00 Feb. 18, 2009 Page REJ10J1662-0400 AVcc DALC112S1 EP1S10 LVTH16244 N.C. User system PF(11:0) DA1, DA0 ASEBRK ...

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SH7280 PA23-PA21, PA14-PA10 PA8-PA6, PB19-PB15 PB9, PB6, PB3-PB0 PC15-0, PD31-PD20 PD15-PD0, PE15-PE13 PE7 PA5-PA0, PB12, PB11 PB8, PB7, PD19-PD16 PE15-PE13 PA15, PA9, PB14, PB13 PB10, PE12-PE8 PE6-0 Figure 4.6 User System Interface Circuits Note: A part of port pin names ...

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SH7280 DrVCC DrVSS USBXTAL USBEXTAL USD+ USD- VBUS Figure 4.7 User System Interface Circuits 4.2 Delay Time for the User System Interface Since the _RES and NMI signals are connected to the user system via the logic on the EV-chip ...

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SH-2A, SH-2 E200F Emulator Additional Document for User's Manual Supplementary Information on Using the SH7286, SH7285, and SH7243 Publication Date: Rev.1.00, June 12, 2007 Rev.4.00, February 18, 2009 Published by: Sales Strategic Planning Div. Renesas Technology Corp. Edited by: Customer ...

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RENESAS SALES OFFICES Refer to "http://www.renesas.com/en/network" for the latest and detailed information. Renesas Technology America, Inc. 450 Holger Way, San Jose, CA 95134-1368, U.S.A Tel: <1> (408) 382-7500, Fax: <1> (408) 382-7501 Renesas Technology Europe Limited Dukes Meadow, Millboard Road, ...

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SH-2A, SH-2 E200F Emulator Additional Document for User’s Manual Supplementary Information on Using the SH7286, SH7285, and SH7243 1753, Shimonumabe, Nakahara-ku, Kawasaki-shi, Kanagawa 211-8668 Japan REJ10J1662-0400 ...